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Abstract: as an offline ac/dc adapter. Figure 1 shows a typical SEPIC topology for a buck-boost converter with , 2008 Submit Documentation Feedback USB Charger Solution Using the TPS40210 TPS40210 SEPIC Converter 1 , Using a coupled inductor requires less space on the printed circuit board (PCB) and tends to be lower , December 2008 Submit Documentation Feedback USB Charger Solution Using the TPS40210 TPS40210 SEPIC Converter , ) The SEPIC capacitor must be rated for a large RMS current relative to the output power. This property ... | Original |
9 pages, |
160KHZ LM358 audio filter LM358 internal block diagram circuit diagram lm358 LM358 SK24 3.5mm audio jack isolated switch SLVA313 tps4021 dc dc sepic 5 v converter BSH107 lm358 800 SK24 equivalent SLVA313 abstract |

Abstract: component due to the load. An estimate may be calculated using Equation 10. I RMS ( COUT ) 3 (EQ. , to deliver power from the AC mains with near unity power factor while using off-the-shelf constant , must reduce to zero during a portion of the switching cycle, i.e., the converter must operate in , 1000mA of DC current at 3V to 4V to provide up to 175 lumens of light output1. A typical high pressure , (EQ. 1) Since the switching period of the converter is very short compared to the AC line frequency ... | Original |
13 pages, |
ISL6745 metal halide electronic ballast circuit dc dc sepic 5V converter PME271M622KR30 Ametherm lm358 sum 150W hid ballast sylvania lamp HID High Voltage Driver IC for HID Lamps ECQU2A104ML 1 watt led OSRAM WHITE 100 LUMEN ISL6745 Application Notes AN1387 AN1387 abstract |

Abstract: .190 1997 4-165 4 Application Note 15 Micrel 6V24V to 3.3V/0.5A Buck Converter Through Hole 8V24V to 5V/0.5A Buck Converter Through Hole L1 3 6V to 24V SHDN SW , 0.2 0.3 0.4 LOAD CURRENT (A) 0.5 Figure 3b. Efficiency 6V40V to 3.3V/0.5A Buck Converter Note 1 Through Hole 8V40V to 5V/0.5A Buck Converter Note 1 Through Hole 3.3V/0.5A 3 SHDN , 16V40V to 12V/0.5A Buck Converter Note 1 Through Hole 3 16V to 40V 5 C1 33µF 63V SHDN ... | Original |
28 pages, |
MIC4574 MIC4575 MIC4576 UPL1V470MEH ME 9435 motorola MIC4576BT inductor 100uH 3A SANYO 1000uF 16V CA general instruments 24V DC to 5V 1A DC flyback converter ir sensing circuit using LM358 Diode sb160 lm358 sum datasheet abstract |

Abstract: 0.1 Iout. For equal to a half period (180 degrees of phase delay) the RMS current is approximately , material. In order to compensate a 40% reduction of inductance at full load due to the DC current level, it , converter, available in POWERDIP18 POWERDIP18( 12+3+3) and SO20L SO20L (12+4+4) plastic packages. The operating input supply voltage range is from 8V to 55V, and the output ranges from 3.3V (L4973D3 L4973D3.3) and 5.1V(L4973D5 L4973D5.1) to 40V. Other regulated outputs below 3.3V are also possible (See Application Note AN938 AN938). Using two L4973D L4973D is ... | Original |
16 pages, |
DIODO 10a diodo smd 1a diodo zener diodo zener 5.1 AN1126 capacitor 470uf 50v diodo zener 12v PWM LM358 DIODO 55 SMD diodo c12 ST diodo zener 5v ROE eke capacitor lm358 sum AN1126 abstract |

Abstract: t. 190 1997 4-165 Application Note 15 Micrel 6V-24V to 3.3V/0.5A Buck Converter Through Hole L1 SHDN 6V to 24V C1 SW 8V-24V to 5V/0.5A Buck Converter Through Hole & , Efficiency 6V-40V to 3.3V/0.5A Buck Converter Note 1 Through Hole L1 3.3V/0.5A 8V-40V to 5V/0.5A Buck Converter Ntrte 1 Through Hole L1 8V tO 40V + C2 220uF 16V C1 C2 01 L1 Nichicon Nichicon , 1997 Application Note 15 Micrei 16V-40V to 12V/0.5A Buck Converter Through Hole 1 ... | OCR Scan |
28 pages, |
LM041 35CV150GX PL52B-68-500 battery charger schematic 24V low esr panasonic fj lm358 sum charger on LM358 Lithium Ion Cells 12V DC DC 3A sb360 equivalent RMS TO DC converter using LM358 1n414b diode uses JF SS34 motorola 1N4148 datasheet abstract |

Abstract: rectifier diode for each output Y It is typical to select the DC link capacitor as 2-3uF per watt of , lower compared to CCM. However, DCM inherently causes higher RMS current, which increases the , under 10W where the MOSFET conduction loss is not so severe, it is typical to design the converter to , operation KRF < 1. The ripple factor is closely related to the transformer size and the RMS value of the , using wire with a diameter larger than 1 mm to avoid severe eddy current losses as well as to make ... | Original |
20 pages, |
817A OPTO-coupler 470nF 400v polyester pc40 core LOSS DATA FSD210 817a opto coupler RC snubber mosfet design r sensing circuit using LM358 snubber circuit for mosfet TDK Ferrite Core PC40 RCD snubber mosfet design TESLA DIODES CSN RMS TO DC converter using LM358 AN4138 AN4138 abstract |

Abstract: AND8079/D AND8079/D A Low Cost DDR Memory Power Supply Using the NCP1571 NCP1571 Synchronous Buck Converter and a LM358 Based Linear Voltage Regulator http://onsemi.com APPLICATION NOTE Prepared by: Jim , /NCP1571 /NCP1571 low voltage synchronous buck converter. The reference design created to evaluate the system uses , ) that also tracks Vdd/2. A low voltage synchronous buck converter is used to create an 8.0 A output at , parallel standby power supply in addition to the main power supplied by the buck converter. Standby ... | Original |
20 pages, |
LM358 lm358 frequency duty cycle MC33375 MTB1306 NCP1570 NCP1571 NTD4302 DO3316P-102HC RMS TO DC converter using LM358 AND8079/D AND8079/D abstract |

Abstract: AND8079/D AND8079/D A Low Cost DDR Memory Power Supply Using the NCP1571 NCP1571 Synchronous Buck Converter and a LM358 Based Linear Voltage Regulator http://onsemi.com APPLICATION NOTE Prepared by: Jim , /NCP1571 /NCP1571 low voltage synchronous buck converter. The reference design created to evaluate the system uses , ) that also tracks Vdd/2. A low voltage synchronous buck converter is used to create an 8.0 A output at , parallel standby power supply in addition to the main power supplied by the buck converter. Standby ... | Original |
20 pages, |
NTD4302 NCP1571 NCP1570 MTB1306 MC33375 lm358 CHARGE CONTROLLER LM358 LM358 output drive circuits RMS TO DC converter using LM358 AND8079/D AND8079/D abstract |

Abstract: protection circuitry. Compared to a discrete MOSFET and controller or RCC (Ringing Choke Converter , pin is designed to directly drive the converter transformer and is capable of switching a minimum of , inside the IC in order to get the effect of eliminating Rstart, which caused a loss in the systems using , charger. Each application has secondary circuits to ensure constant voltage and constant 1. Using the , ) TO-92 Type, LM431 LM431 KA358 KA358 (LM358) KA358 KA358 (LM358) 1 Dual operational amplifier 8-SOP Type ... | Original |
16 pages, |
AN-4111 tr ka431 KA431 application transistor ka431 L FSDH0165 817a opto coupler 1n5822 trr KA4312 transistor ka431az AN4111 RCC Ringing Choke Converter Tr 2n3904 transistor ka431 datasheet abstract |

Abstract: transformer winding. Drain (#8): This pin is designed to directly drive the converter transformer and is , charger. Each application has secondary circuits to ensure constant voltage and constant 1. Using the , ) TO-92 Type, LM431 LM431 KA358 KA358 (LM358) KA358 KA358 (LM358) 1 Dual operational amplifier 8-SOP Type , using flyback converter. In consideration of the size of the set and EMI, two DC-link capacitor (C2 , using Li-ion batteries, which are light and have high energy density. The chargers for these batteries ... | Original |
16 pages, |
transistor ka431az 8uF 400V AN-4111 AN4111 FSDH0165 817 OPTO 817 OPTO-coupler 817a RMS TO DC converter using LM358 817a opto coupler opto coupler 817 transistor ka431 mb6s diode dh0165 8 pin ic datasheet abstract |

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possible (See Application Note AN938 AN938 AN938 AN938). Using two L4973D L4973D L4973D L4973D is possible to deliver up to 7A with a good shows the RMS current through the input capacitor, referred to the outp ut current (Iout), for various through the coil of 0.1 V Iout. For a equal to a half period (180 degrees of phase delay) the RMS delivered to the load. Assuming the same duty cycle for the two sections, the RMS Current through the input compared to the synchronous applica - tion. So it is possible to maintain high efficiency values using www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6642.htm |
STMicroelectronics | 20/10/2000 | 25.84 Kb | HTM | 6642.htm |

Application Note AN938 AN938 AN938 AN938). Using two L4973D L4973D L4973D L4973D is possible to deliver up to 7A with a good sharing between the two For a equal to a half period (180 degrees of phase delay) the RMS current is approximately zero. I f values using low cost and size capacitor. Conclusions To sum up in application in which the duty cycle to be able to support the maximum input operating voltage of the device and the maximum RMS input ors is maximum and is given by Io/2 . So the RMS current to be sustained is 3.5A. The two selected www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6642-v2.htm |
STMicroelectronics | 14/06/1999 | 22.5 Kb | HTM | 6642-v2.htm |

belo w 3.3V are also possible (See Application Note AN938 AN938 AN938 AN938). Using two L4973D L4973D L4973D L4973D is possible to ) , Figure 3 shows the RMS current through the input capacitor, referred to the outp ut current (Iout), for of the power delivered to the load. Assuming the same duty cycle for the two sections, the RMS tion. So it is possible to maintain high efficiency values using low cost and size capacitor. RMS current to be sustained is 3.5A. The two selected capacitor, FA 680 m F/50V F/50V F/50V F/50V Panasonic, are www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6642-v1.htm |
STMicroelectronics | 25/05/2000 | 24.38 Kb | HTM | 6642-v1.htm |

LF353 LF353 LF353 LF353 AN-258 AN-258 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 ADC0816 ADC0816 and ADC0817 ADC0817 ADC0817 ADC0817 8-Bit A/D Converter with LM108 LM108 LM108 LM108 TP-15 TP-15 TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 AN241 AN241 & 242) 136 Have Advantages as Frequency to Voltage Converters (and more) 183 View Online Receive via Email LF356 LF356 LF356 LF356 AN-258 AN-258 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 ADC0816 ADC0816 and ADC0817 ADC0817 ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Channel Multiplexer 388 View Online Download www.datasheetarchive.com/files/national/htm/nsc01160-v7-vx2.htm |
National | 07/01/2002 | 146.61 Kb | HTM | nsc01160-v7-vx2.htm |

LF353 LF353 LF353 LF353 AN-258 AN-258 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 ADC0816 ADC0816 and ADC0817 ADC0817 ADC0817 ADC0817 8-Bit A/D Converter with Reducing DC Errors in Op Amps (Addendum to AN241 AN241 AN241 AN241 & 242) 136 View Online Download Have Advantages as Frequency to Voltage Converters (and more) 183 View Online Receive via Email LF356 LF356 LF356 LF356 AN-258 AN-258 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 ADC0816 ADC0816 and ADC0817 ADC0817 ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Channel Multiplexer 388 View Online Download www.datasheetarchive.com/files/national/htm/nsc01250.htm |
National | 28/06/2001 | 148.57 Kb | HTM | nsc01250.htm |

Phase-Locked-Loops Have Advantages as Frequency to Voltage Converters (and more) 413 View Online Converter ICs Handle Frequency-to-Voltage Needs 187 View Online Download Receive AN-260 AN-260 AN-260 AN-260 Application Note 260 A 20-Bit (1 ppm) Linear Slope-Integrating A/D Converter 291 Application Note 71 Micropower Circuits Using the LM4250 LM4250 LM4250 LM4250 Programmable Op Amp 312 View Online Application Note 116 Use the LM158/LM258/LM358 Dual, Single Supply Op Amp 119 View Online www.datasheetarchive.com/files/national/generalpurpose__v1.html |
National | 25/09/2003 | 36.24 Kb | HTML | generalpurpose__v1.html |

Reducing DC Errors in Op Amps (Addendum to AN241 AN241 AN241 AN241 & 242) 136 View Online Download Receive via Email 28-Jun-1996 TP-14 TP-14 TP-14 TP-14 Low Voltage Techniques (Addendum to AN 211 AN-258 AN-258 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 ADC0816 ADC0816 and ADC0817 ADC0817 ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Channel Download Receive via Email 28-Jun-1996 LB-8 Precision AC/DC Converters Email 28-Jun-1996 LB-25 LB-25 LB-25 LB-25 True rms Detector 66 View Online www.datasheetarchive.com/files/national/htm/nsc01161-v7-vx2.htm |
National | 07/01/2002 | 62.09 Kb | HTM | nsc01161-v7-vx2.htm |

28-Jun-1996 TP-15 TP-15 TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 AN241 AN241 & 242) 136 View 28-Jun-1996 LB-8 Precision AC/DC Converters 86 View Online Download Download Receive via Email 28-Jun-1996 LB-25 LB-25 LB-25 LB-25 True rms Detector 66 Techniques (Addendum to AN 211) 207 View Online Download Receive via Email 04-Nov-1995 AN-509 AN-509 AN-509 AN-509 Using the TP3401/2/3 TP3401/2/3 TP3401/2/3 TP3401/2/3 ISDN PBX Transceivers 195 View Online www.datasheetarchive.com/files/national/htm/nsc00994-v5-vx4.htm |
National | 29/06/2000 | 59.8 Kb | HTM | nsc00994-v5-vx4.htm |

Reducing DC Errors in Op Amps (Addendum to AN241 AN241 AN241 AN241 & 242) 136 View Online Download Receive via Email 28-Jun-1996 TP-14 TP-14 TP-14 TP-14 Low Voltage Techniques (Addendum to AN 211 AN-258 AN-258 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 ADC0816 ADC0816 and ADC0817 ADC0817 ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Channel Precision AC/DC Converters 86 View Online Download Receive via Email 28-Jun-1996 LB-25 LB-25 LB-25 LB-25 True rms Detector 66 View Online Download Receive www.datasheetarchive.com/files/national/htm/nsc01211-v3.htm |
National | 16/08/2002 | 63.43 Kb | HTM | nsc01211-v3.htm |

28-Jun-1996 TP-15 TP-15 TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 AN241 AN241 & 242) 136 View 28-Jun-1996 LB-8 Precision AC/DC Converters 86 View Online Download Download Receive via Email 28-Jun-1996 LB-25 LB-25 LB-25 LB-25 True rms Detector 66 Techniques (Addendum to AN 211) 207 View Online Download Receive via Email 04-Nov-1995 AN-509 AN-509 AN-509 AN-509 Using the TP3401/2/3 TP3401/2/3 TP3401/2/3 TP3401/2/3 ISDN PBX Transceivers 195 View Online www.datasheetarchive.com/files/national/htm/nsc00867-v2.htm |
National | 14/09/2000 | 59.74 Kb | HTM | nsc00867-v2.htm |